Refrigeration appliance comprising a water supply connection

ABSTRACT

A refrigeration appliance has a supply pipe for connecting the refrigeration appliance to a water supply connection and has a controllable safety valve in the supply pipe of the refrigeration appliance for shutting off the water supply connection. The refrigeration appliance further contains a leak detection device for detecting a leak in a water circuit, which leak detection device contains a micro-switch for interrupting a current supply to the safety valve when a leak is detected.

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to a refrigeration appliance with a supply pipe for connecting the refrigeration appliance to a water supply connection and with a controllable safety valve in the supply pipe of the refrigeration appliance for shutting off the water supply connection.

The publication DE 11 2006 000 552 T5 describes a cooling apparatus with a fluid supply system for a user apparatus with a protective system, in order to prevent an overflow resulting from a possible escape of fluid.

BRIEF SUMMARY OF THE INVENTION

It is the object underlying the invention to specify a refrigeration appliance with water-bearing components, in which the refrigeration appliance and its environment are largely protected from the possible consequences of a water leak.

This object is achieved by the subject matter with the features as claimed in the independent claim. Advantageous embodiments of the invention form the subject matter of the figures, the description and the dependent claims.

According to one aspect of the invention, the object is achieved by a refrigeration appliance having a supply pipe for connecting the refrigeration appliance to a water supply connection and a controllable safety valve in the supply pipe of the refrigeration appliance for shutting off the water supply connection, which comprises a leak detection device for detecting a leak within a water circuit comprising a micro-switch for interrupting a current supply to the safety valve when a leak is detected. As a result, the technical advantage is achieved for instance in that a current circuit is interrupted if a leak occurs and a short-circuit is prevented.

A refrigeration appliance is understood in particular to mean a domestic refrigeration appliance, in other words a refrigeration appliance which is used to manage the household in homes or in the field of gastronomy, and serves in particular to store foodstuffs and/or beverages at specific temperatures, like for instance a refrigerator, a freezer, a fridge/freezer combination, a chest freezer or a wine chiller.

In an advantageous embodiment of the refrigeration appliance, the refrigeration appliance has a controllable function valve for outputting water from the water circuit. As a result, the technical advantage is achieved for instance in that the water circuit can be shut off redundantly by two independent valves.

In a further advantageous embodiment of the refrigeration appliance, the refrigeration appliance is embodied to interrupt a current supply to the function valve when a leak is detected. As a result, the technical advantage is achieved for instance in that in addition to shutting off a water supply connection of the refrigeration device, the output of water to an output device is also shut off.

In a further advantageous embodiment of the refrigeration appliance, the refrigeration appliance includes a valve housing, in which the function valve and the leak detection device are arranged. As a result, the technical advantage is achieved for instance in that an unwanted escape of water from the function valve is detected.

In a further advantageous embodiment of the refrigeration appliance, a non-return valve is arranged in the water circuit between the safety valve and the function valve. As a result, the technical advantage is likewise achieved for instance in that an unwanted escape of water from the refrigeration appliance is prevented.

In a further advantageous embodiment of the refrigeration appliance, the function valve is embodied to shut off the output of water if a current supply is interrupted. As a result, the technical advantage is achieved for instance in that the output of water is blocked, as soon as the current supply is interrupted by the micro-switch or another fault, like for instance a cable break.

In a further advantageous embodiment of the refrigeration appliance, the function valve is integrated in a supply pipe behind the safety valve. As a result, the technical advantage is achieved for instance in that the design of the refrigeration appliance is simplified.

In a further advantageous embodiment of the refrigeration appliance, the leak detection device comprises a collection trough for collecting leakage water. As a result, the technical advantage is achieved for instance in that an escape of leakage water out of the refrigeration appliance is prevented.

In a further advantageous embodiment of the refrigeration appliance, the leak detection device comprises a float for detecting the leakage water level in the collection trough. As a result, the technical advantage is achieved for instance in that the leakage water level is detected in a simple and reliable manner.

In a further advantageous embodiment of the refrigeration appliance, the float is connected to the micro-switch by way of a lever. As a result, the technical advantage is achieved for instance in that the float and the micro-switch are arranged separated from one another and the micro-switch is protected from moisture.

In a further advantageous embodiment of the refrigeration appliance, the safety valve is embodied to shut off the water supply connection if a current supply is interrupted. As a result, the technical advantage is likewise achieved for instance in that the water supply connection of the refrigeration appliance is blocked, as soon as the current supply is interrupted by the micro-switch or another fault, like for instance a cable break.

In a further advantageous embodiment of the refrigeration appliance, a non-return valve is arranged between the safety valve and the water supply connection. As a result, the technical advantage is achieved for instance in that an unwanted backflow of water out of the refrigeration appliance, for instance when the refrigeration appliance is separated from the water supply, is prevented.

In a further advantageous embodiment of the refrigeration appliance, the refrigeration appliance comprises a control facility for controlling the safety valve and/or the function valve. For instance the control facility comprises a microprocessor. As a result, the technical advantage is achieved for instance in that the control facility can control the safety valve and the function valve in a flexible manner as a function of different parameters.

In a further advantageous embodiment of the refrigeration appliance, the refrigeration appliance comprises an alarm sensor for outputting an alarm when a leak is detected. As a result, the technical advantage is achieved for instance in that a user is warned of the unwanted escape of water and can introduce countermeasures.

In a further advantageous embodiment of the refrigeration appliance, the valve housing comprises a plug-in connection for supplying the leak detection device with electrical energy. As a result, the technical advantage is achieved for instance in that the valve housing can be easily connected to an electrical power supply upon assembly of the refrigeration appliance.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

Exemplary embodiments of the invention are shown in the drawings and described in more detail below, in which

FIG. 1 shows a schematic view of a refrigeration appliance;

FIG. 2 shows a refrigeration appliance with water supply; and

FIG. 3 shows a design of a valve housing and further function components.

DESCRIPTION OF THE INVENTION

FIG. 1 shows a refrigerator which is representative of a general refrigeration appliance 100. The refrigerator serves for instance to cool foodstuffs and comprises a refrigerant circuit with an evaporator, a compressor, a condenser and a throttle organ. The evaporator is a heat exchanger, in which, after expansion the liquid refrigerant is evaporated through the heat uptake from the medium to be cooled, i.e. the air inside the refrigerator.

The compressor is a mechanically operated component, which draws refrigerant vapor from the evaporator and strikes the condenser at a higher pressure. The condenser is a heat exchanger in which after compression the evaporated coolant is condensed through heat output to an outer cooling medium, i.e. the ambient air. The throttle organ is an apparatus for constantly reducing the pressure by means of cross-sectional tapering.

The coolant is a fluid, which is used to transmit heat in the cold-generating system, which absorbs heat at low temperatures and low pressure of the fluid, and outputs heat at a higher temperature and higher pressure of the fluid, wherein status changes in the fluid are usually effected.

FIG. 2 shows a water supply in the refrigeration appliance 100 viewed from the front of the appliance. The refrigeration appliance 100 is connected to an external water supply and is equipped with an automatic ice and/or water dispenser with corresponding water-bearing components. The refrigeration appliance 100 is connected to an external water supply connection 117 by means of a supply pipe 127, which forms a supply line from the water supply connection 117. The supply pipe 127 comprises an electrical safety valve 121, which is arranged directly on the water supply connection 117 and is controlled by the refrigeration appliance 100. The safety valve 121 is disposed at the start of the supply pipe 127.

The safety valve 121 serves as a water valve in the water circuit of the refrigeration appliance 100 and shuts off the line pressure to the external water supply connection 117, so that the subsequent water circuit is connected without pressure inside the refrigeration appliance 100.

The supply pipe 127 has an inner pipe 125, which directs the water from the water supply connection 117 to the refrigeration appliance 100 and an outer pipe 123, which surrounds the inner pipe 125 and directs the possible leakage water from the inner pipe 125 or the safety valve 121 and its connecting points to a collection trough 103. The supply pipe 127 is connected to a valve housing 113, which is arranged inside the refrigeration appliance 100 and comprises a leak detection device 101. A water line 111 leads from the function valve and the valve housing 113 to an automatic ice dispenser 139 and/or to another water output.

The collection trough 103 for the leakage water is integrated in the valve housing 113. The valve housing 113 serves at the same time as a receiving housing for a function valve and for the components which are responsible for the leak detection. Leakage points inside the refrigeration appliance 100 can appear in particular at connecting points or connection points of different water-bearing components.

The elastic water line 111 is directed by a drainage tube 109 to the pipe guide, which is placed in the insulation foam of the refrigeration appliance 100. The drainage tube 109 serves for simple pipe laying. Moreover, the drainage tube 109 serves to discharge the leakage water, which can occur in the course of the water line 111 and the connecting points thereof to further components. For this purpose, the empty conduits 109 are connected to the valve housing 113 so that the leakage water is routed into the collection trough 103 inside the valve housing 113. In particular, the connecting points and transitions between different water-bearing components can be protected from the escape of water by means of the surrounding empty conduits 109.

FIG. 3 shows a design of the valve housing 113 and further function components. The refrigeration appliance 100 comprises the safety valve 121 on the water supply connection 117 and the function valve 115 inside the refrigeration appliance 100. The function valve 115 enables a controlled water flow in order to output water from the water circuit. The safety valve 121 is a valve without a flow control for the complete release or stopping of the water supply.

The safety valve 121 and the function valve 115 are connected in series. The function valve 115 is arranged downstream of the safety valve 121 in the water circuit in the direction of the water flow. Even if one of the two valves should no longer be able to close a water supply due to a malfunction, in this case the water supply can be closed by the other of the two valves. The water supply can therefore be completely closed even with a temporarily dripping valve.

Both the safety valve 121 and also the function valve 115 can be electrically connected by a control facility. Both a simultaneous and also a time-displaced switching-on and off of the valves are possible on account of the electronic control of the valves.

The water-bearing components and their water supply connections are arranged in the valve housing 113 such that potentially escaping leakage water is collected in the collection trough 103. The collection trough 103 has an overflow 105 for collected leakage water. The overflow 105 serves on the one hand to protect the electrical components from increasing leakage water and on the other hand to discharge the excess leakage water.

In order to collect this excess leakage water, the collection trough 103 is arranged above an evaporation tray 107. The actual purpose of the evaporation tray 107 is to collect condensate water from the refrigeration appliance 100. On account of the arrangement of the collection trough 103 above the evaporation tray 107, an additional collection volume is produced for the leakage water, so that the valve housing 113 can itself be embodied in as compact a manner as possible.

The leakage water is guided to the collection trough 103 as part of the leak detection device 101. A float 131 is arranged there, which floats due to the rising leakage water and actuates a micro-switch 129 by way of a switch lever 133. The collection trough 103 inside the valve housing 113 has a small collection volume for leakage water. In order to actuate the micro-switch 129 using the float 131 in the event of a leak, only a small volume of water is therefore required. As a result, the advantage is achieved in that a leak can be reliably detected even with small quantities of escaping water. If further water flows out of the leak, this is routed in a controlled manner by way of the overflow 105 to the evaporation tray 107 with a larger collection volume. The collection trough 103 is arranged above the evaporation tray 107 so that water flows from the overflow 105 into the evaporation tray 107 on account of the gravity in the evaporation tray. For this purpose, the overflow 105 can be connected to the evaporation tray 107 by means of a pipe.

As a result, both a detection of the leak by small quantities of leakage water and also an escape of the leakage water can be prevented. Moreover, on account of the small collection volume of the collection trough 103, the valve housing 117 can be produced in a compact form.

The micro-switch 129 is thus integrated into the current circuit of the safety valve 121, such that it interrupts the current supply to the safety valve 121. The current supply is provided for instance by a current supply network. This ensures that in the event of a leakage, the safety valve 121 is mechanically separated from the current supply. Current lines and the line connector inside the refrigeration appliance 100 are arranged spatially such that these do not come into contact with water. To this end, water-bearing components and possible leakage points are arranged below the electrical power lines and plugs.

As a result, the safety valve 121 is closed in the event of a leak and the water flow to the refrigeration appliance 100 is interrupted at the connecting point with the water supply. The actuated micro-switch 129 outputs a signal to a control facility, so that a current supply to the function valve 115 is likewise interrupted by way of the control facility. With an interrupted current supply, both the function valve 115 and also the safety valve 121 are in the closed state. If the current supply is interrupted, the valves close automatically. The direct interruption of the current supply offers mechanically a maximum switch-off safety. If a water leak is detected by the leak detection device 101 using the micro-switch 129, a visible or audible alarm is output to the control panel of the refrigeration appliance 100.

Moreover, a non-return valve 133 is integrated in the valve housing 113 between the safety valve 121 and the function valve 115. The non-return valve 133 prevents an uncontrolled flowing out of water from the water circuit of the refrigeration appliance, for instance if the refrigeration appliance 100 is separated from an external water supply during disassembly. Moreover, the non-return valve 133 prevents the water disposed in the refrigeration appliance 100 from flowing back into the domestic water line. This can be achieved in a particularly reliable and space-saving manner by using the non-return valve 133 inside the water circuit. Contrary to other domestic appliances, like for instance dishwashers, which use a free flow path, the use of the non-return valve 133 in the water circuit of the refrigeration appliance 100 is possible without any problem, since the water in the water circuit of the refrigeration appliance 100 does not carry dirt residues with it and has a high water quality.

The laying of water lines 111 in the refrigeration appliance 100 takes place by way of empty conduits 109, into which pipes are guided. These empty conduits 109 are used to guide the leakage water from the water-bearing components to the collection trough 103. For this purpose the valve housing 113 has an empty conduit connection 135 with a pipe output 143. The intake pipe 127 from the safety valve 121 is connected at one connection 119 with a pipe input with the valve housing 113.

The collection trough 103 has the overflow 105 which lies directly above an evaporation tray 107. The function valve 115 is coupled mechanically to the non-return valve 133 by way of a connecting part 141. In addition, the valve housing 113 has a number of plug-in connections 137 to supply the leak detection device with electrical energy. The plug-in connections 137 serve to supply electrical energy or convey control signals. A first plug-in connection 137 is provided for instance to supply energy to the function valve 115, a second plug-in connection 137 is provided for instance to convey electrical signals from the micro-switch 129 and a third plug-in connection 137 is provided to connect a control line to the safety valve 121.

In further embodiments, the non-return valve 133 can be positioned between the safety valve 121 and the water supply connection 117. The supply pipe 127 can be directly connected to the safety valve 121 without a connecting piece. The function valve 115 can be integrated in the supply pipe 127 directly behind the safety valve 121.

The explained system can be used in all refrigeration appliances, like for instance refrigerators, freezers or combined fridge/freezers. The system prevents damage due to leakage water from water-bearing components and their connecting points. A direct arrangement of the safety valve 121 on the water supply connection 117 enables a pressureless water system inside the refrigeration appliance 100, if no water is requested from the refrigeration appliance 100. A combination of the safety valve 121 and the function valve 115 achieves an increased functional reliability of the water circuit. The empty conduit 109 in the insulation foam of the refrigeration appliance 100 serves not only to guide water lines and pipes but instead also to discharge leakage water. The safety valve 121 and/or the function valve 115 can be formed by a solenoid valve.

On account of the overflow 105 for leakage water from the collection trough 103 into the evaporation tray 107, the valve housing 113 can be realized in a compact manner. The evaporation tray 107 can form part of the valve housing 113. In addition, the evaporation tray 107 can be formed from a thermally conductive material such as metal or sheet metal so that the transmission of heat onto the evaporation tray 107 is improved and evaporation is increased.

All features shown and explained in conjunction with the individual embodiments of the invention can be provided in different combinations in the inventive subject matter in order at the same to realize their advantageous effects.

The scope of protection of the present invention is provided by the claims and is not restricted by the features explained in the description or shown in the figures.

LIST OF REFERENCE CHARACTERS

-   100 Refrigeration appliance -   101 Leak detection device -   103 Collection trough -   105 Overflow -   107 Evaporation tray -   109 Empty conduit -   111 Water line -   113 Valve housing -   115 Function valve -   117 Water supply connection -   119 Connection -   121 Safety valve -   123 Outer pipe -   125 Inner pipe -   127 Supply pipe/supply line -   129 Micro-switch -   131 Float -   133 Non-return valve -   135 Empty conduit connection -   137 Plug-in connection -   139 Ice dispenser -   141 Connecting part -   143 Pipe output 

The invention claimed is:
 1. A refrigeration appliance, comprising: a supply pipe for connecting the refrigeration appliance to a water supply connection; a controllable safety valve disposed in said supply pipe of the refrigeration appliance for shutting off the water supply connection; and a leak detector for detecting a leak within a water circuit, and has a micro-switch for interrupting a current supply to said controllable safety valve when the leak is detected; a controllable function valve for outputting water from the water circuit; and a valve housing, in which said controllable function valve and said leak detector are disposed.
 2. The refrigeration appliance according to claim 1, wherein the refrigeration appliance is configured to interrupt a current supply to said controllable function valve when the leak is detected.
 3. The refrigeration appliance according to claim 1, further comprising a non-return valve disposed in the water circuit between said controllable safety valve and said controllable function valve.
 4. The refrigeration appliance according to claim 3, wherein said non-return valve is disposed between said controllable safety valve and the water supply connection.
 5. The refrigeration appliance according to claim 1, wherein said controllable function valve is embodied to shut off an output of the water if the current supply is interrupted.
 6. The refrigeration appliance according claim 1, wherein said leak detector has a collection trough formed therein for collecting leakage water.
 7. The refrigeration appliance according to claim 6, wherein said leak detector has a float for detecting a leakage water level in said collection trough.
 8. The refrigeration appliance according to claim 7, further comprising a switch lever, said float is connected to said micro-switch by way of said switch lever.
 9. The refrigeration appliance according to claim 1, wherein said controllable safety valve is embodied to shut off the water supply connection if the current supply is interrupted.
 10. The refrigeration appliance according to claim 1, further comprising a control facility for controlling at least one of said controllable safety valve or said controllable function valve.
 11. The refrigeration appliance according to claim 1, further comprising an alarm sensor for outputting an alarm when the leak is detected.
 12. The refrigeration appliance according to claim 1, wherein said valve housing has a plug-in connection for supplying said leak detector with electrical energy.
 13. A refrigeration appliance, comprising: a supply pipe for connecting the refrigeration appliance to a water supply connection; a controllable safety valve disposed in said supply pipe of the refrigeration appliance for shutting off the water supply connection; and a leak detector for detecting a leak within a water circuit, and has a micro-switch for interrupting a current supply to said controllable safety valve when the leak is detected; a controllable function valve disposed in said supply pipe for outputting water from the water circuit.
 14. The refrigeration appliance according to claim 13, further comprising a valve housing, in which said controllable function valve and said leak detector are disposed.
 15. The refrigeration appliance according to claim 13 further comprising an ice dispenser and a water line leading from said valve to said ice dispenser.
 16. A refrigeration appliance, comprising: a supply pipe for connecting the refrigeration appliance to a water supply connection; a controllable safety valve disposed in said supply pipe of the refrigeration appliance for shutting off the water supply connection; and a leak detector for detecting a leak within a water circuit, and has a micro-switch for interrupting a current supply to said controllable safety valve when the leak is detected; a controllable function valve for outputting water from the water circuit, said controllable function valve being integrated in said supply pipe beyond said controllable safety valve. 